Chemical basis of Engineering
Universidad Carlos III de Madrid
Area of Study
Chemistry, Engineering Science
Taught In English
Course Level Recommendations
ISA offers course level recommendations in an effort to facilitate the determination of course levels by credential evaluators.We advice each institution to have their own credentials evaluator make the final decision regrading course levels.
Recommended U.S. Semester Credits3
Recommended U.S. Quarter Units4
Hours & Credits
Chemical basis of engineering (251 - 15325)
Study: Bachelor in Aerospace Engineering
Semester 2/Spring Semester
1ST Year Course/Lower Division
Competences and skills that will be acquired and learning results:
To understand the basic principles of Chemistry: structure and properties of matter, thermochemistry and chemical equilibrium.
To understand the basic principles of Chemical Engineering: mass balances, chemical equilibrium and reaction rates.
To introduce the main inorganic and organic products and their production processes.
To explain the reactivity of the main inorganic and organic functional groups as well as their application in industrial synthesis.
To enable students to operate simple analytical equipment, to analyse and interpret their results
General skills encouraged during the duration of the course:
-Ability to solve complex problems
-Ability to search for, understand and use relevant information in a decision-making process
-Ability to apply multidisciplinary knowledge for resolving a specific problem
-Ability to work in a group and distribute the workload in order to solve complex problems
General skills acquired by the student:
- Ability to obtain the necessary information, knowledge or understanding in order to develop solutions for specific applications
Description of contents:
- Atoms, Molecules and Ions. Chemical bonding.
- Thermochemistry and chemical equilibrium.
- Chemical Equilibrium: Acid-Base and solubility equilibriums. Electrochemistry.
- Chemical Kinetics
- Applied Organic and Inorganic Chemistry
- Basic operations in Chemical Engineering
Learning activities and methodology:
Master classes, tutorial classes in small groups dedicated to resolving student questions and doubts, student presentations, individual tutorials, and individual work by the students; activities dedicated to acquisition of theoretical knowledge related to the lecture course (3 ECTS credits)
Laboratory practical sessions and classes in small groups dedicated to solving question sheets, individual tutorials and individual work by the student; activities dedicated to acquisition of practical skills related to the lecture course (3 ECTS credits)
- Continuous evaluation (minimum 40 %):continuous evaluation will be based on class attendance and assessed tests performed in class (30%) and attendance to practical sessions and assessed practical work paper (10%),
- Final exam (60%).
Attendance to practical sessions is mandatory.
K. HEINZ BÜCHNER, HANS-HEINRICH MORETTO, P. WODITSCH,. Industrial Inorganic Chemistry. Wiley-VCH; 2000..
K. WEISSERMEL, HANS-JÜRGEN ARPE,. Industrial Organic Chemistry. 4th Edition, Wiley & Sons; 1997..
P.W. ATKINS, L. JONES.. Chemical Principles. W H Freeman & Co, 2001.
R. CHANG.. Chemistry,. McGraw-Hill Science, 2006..
Courses and course hours of instruction are subject to change.
ECTS (European Credit Transfer and Accumulation System) credits are converted to semester credits/quarter units differently among U.S. universities. Students should confirm the conversion scale used at their home university when determining credit transfer.